Community Hazard Analysis

Community hazard analysis is essential for mitigation, preparedness, response, and recovery planning. In the process of creating a disaster program analysis, this reflective paper identify and characterize disasters, evaluate each on frequency and magnitude scale, and estimate overall risk.Advertising We will write a custom essay sample on Community Hazard Analysis specifically for you for only $16.05 $11/page Learn More Besides, the paper determines potential, direct, and indirect social and economic costs, effects, acceptable risk level, and identifies appropriate risk reduction opportunities in the city of Georgia. Besides, the treatise measures these hazards on the risk assessment model and classifies each in its quadrant on the facets of probability (Haddow, Bullock, Coppola, 2011). To begin assessment, emergency management planning reviews major anthropogenic and natural hazards frequent within the boundaries of Georgia City. Reflectively, it is i mportant to note that hazards such as earthquakes uniformly affect an expansive region and the response may be generalized. However, hazards such as tornadoes, thunderstorms, winter storms, Urban Interface fires, pandemic flu and Terrorism affect the city of Georgia in particular. In the region of East Coast cities, storms caused by tornadoes accompanied by thunderstorms pose greatest challenge on disaster mitigation. These tornados wreak havoc and cause death in hundreds. In 2009, 68 tornadoes hit Georgia and cost 35 million dollars in damages. Besides, floods and severe thunder led to power outages as secondary effects. East Coast cities experience earthquakes of lower magnitude. These quakes and tremors occur periodically few times in a year and originate from the fault line of Mexico. Actually, cities located in East side experience minute crustal earthquakes. Despite low frequency in occurrence, earthquakes have large potential impacts. The risk of pandemic flu especially bird flu was declared pandemic in 2009. Same as volcanic Hazards, pandemic flu is of little inventory on infrastructure and well being. Urban Interface fires pose minimal risk to the city of Georgia apart from the southern part since there is no dense forest or grassland surrounding it. Thus, risk is negligible and of minimal inventory. In addition, Transport System and Utility disruption hazards are frequent due to impact of natural hazards such as winter storms, tornados and anthropogenic factors.Advertising Looking for essay on environmental studies? Let's see if we can help you! Get your first paper with 15% OFF Learn More These disruptions pose major challenges on operations within and without the city. Besides, Hazmat Incidents such as harmful material releases by human beings affect construction, drainage, and transport corridors and contribute a good percentage of rail and road accidents. Potentially, this city is prone to effects of hazmat incidents (Pine, 2008). J ust like in any other developed city, terrorism threat poses an immediate and high magnitude challenge to Georgians. These threats include malevolent actions deliberately triggered to inflict casualties and damage property. Besides, terrorism intimidates or coerces political or behavioral changes which are bad for business and socialization as reported in 1995, 2001, 2005, and 2011. However, magnitude of risk is dependent on severity frequency, infrastructure vulnerability, and threat to existence of humanity (Haddow, Bullock, Coppola, 2011). Evaluation of risks posed by these hazards is dependent of several factors interacting simultaneously at macro and micro level to create unfavorable conditions for life, investment, and movement. These effects include potential casualties, economic losses, and infrastructure damages. However, there is variance in magnitude of threat created by each hazard. The higher the frequency and magnitude of threat, the higher the ranking on probability of occurrence sequence. Hazards such as tornados, severe thunderstorms, and winter storms are common and are frequent. However, major earthquakes occur over a long period of time but with high consequences than the low risk hazards (Haddow, Bullock, Coppola, 2011). Thus, evaluation adopts relative risk analysis which approximates risk level each disaster pose. Indicated below is a refined mitigation plan which summarizes the level of relative risk for each hazard. Notably, qualitative and quantitative judgment techniques are used to rank magnitude and intensity of Hazards in terms short, mid, and long term loses and damages recorded annually in Georgia. Hazard Relative Risk to Georgia Assessment Quadrant Earthquakes Very Low A Winter Floods High C Tornado Storms and Thunderstorms High D Disruption of Utility and Transportation Systems Moderate C Hazmat incident – Fixes Sites High D Terrorism Low B Wild land/Urban Interface Fires Low B From the generated t able, it is apparent that hazards falling in quadrant A don’t occur frequently. Besides, impacts caused by these disasters are low as probability of occurrence is minimal. In Georgia, earthquake, terrorism, and wild fires are predicted to occur at low probability and create low impact.Advertising We will write a custom essay sample on Community Hazard Analysis specifically for you for only $16.05 $11/page Learn More Reflectively, the impacts of their occurrence are high but within minimal probability. Tornadoes, thunderstorms, and disruption of utility and transportation system hazards occupy the third quadrant C and D. Due to high density of the population in Georgia City, tornadoes, thunder, and distraction of electric, water, and transport systems are predicted to occur more frequently with great impact. Hazmat incidences are human error disasters which have high impact on occur very frequently especially in an urban settlement. In the city of Georgia, it is apparent that natural hazards are frequent in occurrence. For instance, in the last four years tornadoes and severe thunderbolt have displaced half a million people and cause death of hundreds. Economically, estimated damage for each aftermath of a tornado is estimate at thirty five million dollars. From this analysis, emergency response in Georgia City should be directed towards preparedness against natural hazards. The above data is vita in decision science and resource allocation towards disaster management preparedness. Each hazard is assigned to a quadrant with predetermined response strategies and ‘follow-ups’ upon implementation. In this case, threat of earthquakes and epidemic flu attract minimal attention as the frequency of their occurrence is minimal and overall impacts low. Therefore, minimal resources and preparedness should be allocated to this quadrant. However, attention and preparedness increases from quadrant A towards quadrant D. Hazar ds in quadrant B and C attract moderate attention since their occurrence are predictable but have generally low impact on lives Georgians. Specifically, special attention is directed towards hazards which occur in quadrant D due to high frequency of occurrence and relatively massive impact created by each episode of occurrence. Therefore, city planners and disaster managers should divert attention to natural disasters since their occurrence is consistent and are accompanied by massive impacts on social and economic aspects of life. Specifically, special attention is directed towards response to impact of tornado and thunderbolts on housing, transport, and electricity supply. Notably, winter storms, and tornados accompanied by thunderbolt descended upon Georgia in Worth and Mitchell counties and killed 120 people. Besides, more than 200 people were injured and dozens of homes destroyed. However, moderate effort should accompany planning in mitigating threat of terrorism (Pine, 2008). Advertising Looking for essay on environmental studies? Let's see if we can help you! Get your first paper with 15% OFF Learn More The magnitude of estimated risk varies from one hazard to another. Factually, aftermaths of natural disasters are likely to affect more that 40% of the city population who cannot afford tornado proof housing. Therefore resources should be preserved and directed towards addressing the impacts of these disasters especially on coping and survival technique. Lives lost annually from these natural hazards are on the rise besides serious economic loss. In mitigating a response strategy, attention is directed towards marking of hot spots and erecting weather tracking devises to give alerts for early evacuation and preparedness in response. However, the authority is aware of the fact that natural disaster cannot be prevented and efforts are directed towards counter response after impact. This opportunity cost of evacuation has been construction of safe havens and response centers where victims are given first aid and other necessities. There are several risk reductions opportunities availab le for addressing natural hazards predicted in Georgia City and secondary aftermath. Among the identified opportunities include partnership with the locals in awareness campaigns on survival and understanding natural disasters. Besides, additional safety and first aid centers have been constructed as hiding point and supplies delivery locations for disaster stricken population. Moreover, cooperation with the media has proven instrumental in creating awareness on magnitude and effects of tornadoes on economic, social, and health sectors in order to prepare Georgians psychologically for unprecedented losses. Also, the city conducts risk assessment studies especially for relevant mitigation approach development for the seven disasters identified (Pine, 2008). Conclusively, emergency management planning reviews major anthropogenic and natural hazards within the boundaries of occurrence predictability and magnitude of impact. Generally, hazards such as floods, storms, Urban Interface fir es, Disruption of Transport and Utility Systems, and Hazmat Incidents occur frequently. Disaster preparedness depend on systems and policies laid down to address their impacts. Reference List Haddow, G., Bullock, J., Coppola, D. (2011). Introduction to emergency management. Burlington: Elsevier, Inc. Pine, John. (2008). Natural hazards analysis: reducing the impact of disasters. Michigan: Auerbach Publications. This essay on Community Hazard Analysis was written and submitted by user Gerardo Q. to help you with your own studies. You are free to use it for research and reference purposes in order to write your own paper; however, you must cite it accordingly. You can donate your paper here.

Antoine Lavoisier essays

Antoine Lavoisier essays Antoine-Laurent Lavoisier (lah vwah ZYAY) was one of the best-known French scientists and was an important government official. His theories of combustion, his development of a way to classify the elements and the first modern textbook of chemistry led to his being known as the father of modern chemistry. He contributed to much of the research in the field of chemistry. He is quoted for saying, "Nothing is lost, nothing is created, everything is transformed." Lavoisier was born in Paris, France on Aug. 26, 1743. When he was eleven years old he attended a college called Mazain. For Lavoisier's last two years in college he found a great deal of interest in science. He received an excellent education and developed an interest in all branches of science, especially chemistry. Abbe Nicolas Louis de Lacaill taught Lavoisier about meteorological observation. On 1763 Lavoisier received his bachelor's degree and on 1764 a licentiate which allowed him to practice his profession. In his spare time he studied books all about science. His 1st paper was written about gypsum, also known by hydrated calcium sulfate. He described its chemical and physical properties. He was elected to the French Academy of Sciences in 1768. On 1771 he married Marie Anne Pierrette Paulze. She helped Lavoisier by drawing diagrams for his scientific works and translating English notation for him. Unlike earlier chemists, Lavoisier paid particular attention to the weight of the ingredients involved in chemical reactions and of the products that resulted. He carefully measured the weights of the reactants and products. He noted that the weight of the air in which combustion occurred decreases. He found that when the burning material combined with the air somehow and that the air weighed less. Lavoisier found that the weight of the products of combustion equals the weight of the reacting ingredients. This observation beca ...

Ethics Research Paper Example | Topics and Well Written Essays - 1000 words

Ethics - Research Paper Example Besides, such practice of discussing patient information in public places would result in the complete trust of the patient on the entire health care staff. Hence, I will advice the nurse of the nursing staff to be more responsible by maintaining confidentiality and comply with the hospital rules. It is also important for me to discuss the issue with the nursing instructor as they will determine the penalty for such issues. For the first time the penalty for the student would be to read the policy about confidentiality and signed the form. By signing the form the student comes in agreement to maintain confidentiality and if not followed serious action may be taken. The nursing instructor may also decide to take special counseling sessions with the individual student or a general class for all the student nurses and warn them of the eventualities if not followed. ANSWER: I spoke to one of my cousin and asked her if she had taken the support of a lie at any point of time. She shared about a vehicular accident that took place in her life. She had to hide this fact from her husband and said to her husband that she had sprained her leg while walking. She justified her telling lie because if she had mentioned the truth, her husband would have unnecessarily worried at all times when ever she took her vehicle out. Besides, she said that she loved her husband so much that she did not want to share her pain and put him in tension. She is doing it out of her love and sometime she is doing it to hide her pain. In my view, there is no exact absolute truth that may work in subjects like science and math, but this is not the case in human society where psychology, sociology and humanities are involved. There are so many dynamics situations that surround us that our views on certain aspect may differ from others and I feel that this makes each human unique in this world. Chapter 8 Discussion Question: Your patient has been diagnosed with a terminal illness. His family asks that he not be told his diagnosis, and the physician agrees not to tell him at this time. During his morning care, he tells you that he thinks he is not being told everything. a) What do you say to him, and why b) Do you believe he has the right to know c) Do you believe his family is making decisions for him in his best interests d) Ask a staff nurse in your clinical setting how she or he would handle a situation like this. ANSWER: First of all I will ask the patient what makes him think that he is not being told everything. I will try to make the patient comfortable by reinstalling the faith in him that the health care team is doing their best to help him recover fast and can be only possible if he has a 100 per cent faith. This faith is of utmost importance for any treatment to be successful. I would appreciate the patient because he/she found me to be a confidential person to share their sincere feeling. I will further encourage them to share their feelings to whom-so-ever they feel comfortable with and if they have any doubt about the treatment or the illness to enquire with the authorities such as the doctor. This kind of attitude helps in bringing out any kind of

The Capital Budget Research Paper Example | Topics and Well Written Essays - 1000 words

The Capital Budget - Research Paper Example Furthermore, better compensation increases the employee morale, generally, given that the increase is awarded in an equitable manner. In other words, employee morale is boosted if the increase in compensation is awarded in respect to the level of productivity of individual employees rather than granting a blanket increment Figure 1: Projected increase in Revenue to to increase in compensation Trend Analysis As shown in figure 2, annual expenditure has been greater than revenues for the past several years until 2002 when an opposite trend was observed. Generally, the expenditure has been declining since 2008. This rate of decline has been most drastic from 2011, but the management seems to be effectively controlling the operating expenses because the gap between revenues and expenditure seems to be closing up. It is very important for the management to ensure that as the cost declines, good measures should be put to ensure that the contribution margin does not decline as well (City of Cincinnati Ohio, 2012). 2008 2009 2010 2011 2012 Expenditure 365,000,000 356,000,000 356,000,000 354,000,000 334,000,000 Revenue 357,500,000 338,500,000 337,000,000 337,000,000 337,000,000 Table 1: Expenditure trend Figure 2: Expenditure Trend Expenditure Forecast The health expenditure, which finances the services by the city’s health clinics to those patients that are qualifying has been declining since 2010 and it is expected to maintain a slight decline to 2017. This cost should be approached because, although it consumes a substantial proportion of the council’s budget, health services are very fundamental and furthermore the decline shows that the council has been undertaking a cost cutting measure (City of Cincinnati Ohio, 2012). 2010 2011 2012 2013 2014 2015 2016 2017 Health 23,574,570 19,450,210 20,128,510 19,256,458 19,126,895 19,100,568 18,458,000 18,456,123 Fire 92,832,430 98,662,160 94,358,450 93,125,145 92,125,256 92,125,365 91,125,458 90,125,456 Public servivce 22,291,010 20,015,980 19,963,240 19,256,125 18,125,456 18,125,100 17,124,896 17,100,125 police 139,110,860 146,175,220 132,888,620 135,568,456 125,456,256 120,124,562 119,136,100 118,256,362 Figure 2: Four of the highest expenditure (5 years forecast) The fire expenditure seems to be consuming a very big proportion of the council’s budget, however, this expenditure has reduced since 2010 and the forecast exhibits the same trend of reduction. Therefore, this budget will be approved. Public services have a trend very similar with health and the cost cutting measures are evident, therefore, it is likely to be approved. Finally, the police takes the highest share of the council’s budget. Given that security is very essential as it determines the success of all other activities, the high budget is justifiable. It is also evident that this figure has been on the decline since 2012 and there it is likely to be approved (Weiss & Mark, 1989). Capital Budget There are t wo methods of predicting the cost of needed repairs including qualitative and quantitative methods. The qualitative forecasting methods make use of judgements to predict cost. This method is most suitable when used in situations where the historical data is not available. Furthermore, availability of historical data is sometimes considered irrelevant because of significant changes that take place in the environmental conditions afflicting the pertinent time. For instance, it

Response to liberalism and racial justice Essay Example | Topics and Well Written Essays - 250 words - 1

Response to liberalism and racial justice - Essay Example I agree with Karl Marx that capitalist societies are characterized by class tensions. Modern capitalist societies are adopting liberalism and racial justice strategies in order to achieve equality and liberty in the society. The liberalism strategies aim to attain class harmony, as opposed to class conflict. The strategy institutes regulatory and social welfare frameworks, which address the grievances of the lower and middle classes (Pilling 56). The racial justice strategy aims to protect and extend constitutionally assured rights to individuals who have traditionally been deprived of their privileges on the basis of race. The strategy is dedicated to maintenance racial parity and fighting racism in all ways through legislative initiatives, community training and organizing, litigation, and public education. These ways aim to address the extensive range of issues, which unreasonably and negatively impact individuals of color (Pilling 59). These strategies are demonstrated by political ideologies in United States especially between Republicans and Democrats. Democrats adopt liberalism strategies through social welfare programs and regulatory frameworks, which aims at addressing the grievances of the lower and middle classes. Republicans aim to dismantle these regulations and programs, and this consistently agitates racial tensions, which are habitually entrenched in class

Comparing Oxygen Levels to Heart Rate Recovery and Peak Time

Comparing Oxygen Levels to Heart Rate Recovery and Peak Time Research Question How do different concentrations of oxygen provided to the respiratory system affect the heart rate and thus a subjects  athletic capabilities? Introduction Firstly, it is important to investigate how the bodys respiratory system functions. The lungs have two primary functions, releasing carbon dioxide from the body and integrating oxygen into the bloodstream 3. The lungs never reach peak capacity and are not responsible for the limitation in oxygen delivered to the muscles 1. This is important because, in the case of this experiment the limitations may be reached. There is always approximately the same amount of oxygen in the air in relation to everything else: 21%. However  as altitude increases there is less air pressure and thus less oxygen available to the lungs per diaphragm contraction cycle. Instead of changing the barometric pressure, there will simply be less or more oxygen in the air, in this experiment. This may cause an abnormal result as the body responds differently to drastically altered conditions. When the oxygen content of the air is drastically reduced, the blood will most likely be significantly less saturated and when the oxygen content of the air is drastically increased the blood should be more saturated with oxygen 2. It is then necessary to investigate how this might affect the cardiac system. The amount of oxygen that is available to the cells while they are producing ATP  to drive the body is important, because if there is not enough oxygen available for aerobic respiration, than  anaerobic respiration will take place. Anaerobic respiration will produce lactate and carbon dioxide. The lactate (lactic acid), triggers a response from the sympathetic nervous system1, 2. The noradrenergic sympathetic nervous system produces norepinephrine. The SA node (sinoatrial node), stimulated by the norepinephrine hormone increases both the rate that the heart beats and the degree to which the heart completes a systolic contraction 1,2. In addition to the sympathetic nervous system, the medulla senses the increase of carbon dioxide in the blood due to anaerobic respiration. The medulla then sends an electrical signal through the cardiac nerve to the SA node2. A live O2 machine will be used in order to carry out this experiment. It produces and stores 15% oxygen and 95% oxygen separately. These will be the two concentrations of oxygen that will be used to compare the times it takes for heart rates to peak and then recover. The independant  variable is the concentration of Oxygen. The dependant  variable is the time it takes for the subject to peak and the time it takes for the subject to recover. The experiment will be controlled by regulating the speed at which the treadmill is set to. Since the point of this experiment is to compare differences  the difference in the individuals athletic ability should not make a difference in the data. Materials Live O2 Machine Oxygen mask Treadmill Heart rate/oxygen saturation monitor Clorox and paper towels Timer Experimental Overview The Live O2 machine which will be used to create, store and deliver the two different concentrations of oxygen is comprised of an oxygen machine, storage bag with two compartments, a delivery system with a mask and a switch to change which concentration of oxygen is being delivered. The picture above, depicting the live  O2 system is the one that was used, except a treadmill was used  instead of a stationary bike as is depicted. The test subjects heart rate peak times and recovery times were first tested with the increased level of oxygen, they were then given a period of rest while another subject ran on the treadmill. Then, after the period of rest the subject would run on the treadmill again and their peak and recovery times would be measured with the restricted levels of oxygen. The threshold for the heart rate peaking was 140 bpm. The threshold for recovered was when the heart rate of the subject was within 10 of their original resting heart rate. For example, if the test subjects resting heart rate was 65 bpm, they would be considered recovered when their heart rate dropped back below 75. Procedure Step 1 First 8  willing people were found, who were athletically fit enough that there would not be any damage to their body through the testing. Then the 8  people were instructed not to drink any sort of caffeine or any other stimulant before the experiment. The mask of the live  O2 machine was cleaned with clorox  and the oxygen machine was turned on to fill up the two individual bags. Step 2 Then the resting heart rate of the subject was taken with the heart rate monitor. Ten was added to the resting number to determine the threshold that the heart rate must reach during recovery to determine whether or not the subject has recovered. The heart rate monitor was left on the subjects  finger to monitor their heart rate, Then  the oxygen was set to the 95% setting and the treadmill was set to 5 miles per hour. Then, once the subject was at 5 miles per hour the timer was started and the subject was instructed  to hold the mask to their face. The timer was stopped once the subjects heart rate reached 140 bpm. Then the treadmill was stopped and the subject was instructed to keep the mask on. Then the time it took for their heart rate to return to the predetermined resting rate was measured. Step 3 The first subject was then given rest while subject 2 performed step 2. Once subject 2 was done with step 2, subject 1 repeated step 2 with 15% oxygen instead of 95% oxygen followed again by subject 2. The mask was cleaned with clorox  between each subject. Step 4 Steps 1-3 were repeated with the remained of the test subjects and the data was recorded in a table within the lab book. Safety considerations Since this lab works with the human body and measuring its responses to what could be considered  strenuous situations, there must be precautions taken. Firstly, all of the subjects that were tested, were either in good or exceptional physical condition and had no preexisting health complications that would endanger them during the experiment. To further ensure that there was no physical harm done to the subjects, the subjects saturation was constantly monitored with the heart rate/oxygen saturation monitor. If at any point during the 15% oxygen test the saturation dipped too low (below 85% saturation) and remained there for more than a couple seconds then the 95% oxygen would immediately been switched on and that round of testing would be terminated and the subject time to rest. The mask that was being used was also constantly cleaned with clorox  to prevent the spreading of germs. Analysis Qualitative variables The two main variables that may have affected the data were: the heart rate monitor and the oxygen mask. The fact that the subject had to hold the monitor on their finger and the mask while running made the heart rate monitor slightly inaccurate and sometimes would simply not take readings. It only worked when the subject was holding onto it and this disrupted their normal running patterns. Some subjects also had trouble holding the mask to their face with enough force to hold a seal while running. This may have let some of the natural air into the mask. Holding the mask also inhibited the subjects natural running pattern. The fact that the subjects natural running pattern was inhibited made it harder for them to keep a normal running pace even with the treadmill set at a constant 5 miles per hour. Having to control all of these things at once may have also added to the strain on the subjects body, which could have affected the results. Then finally, there is also the fact that every one that was being tested was different in their biological makeup and therefore will respond slightly differently to the two concentrations of oxygen. Data Complete Peak and Recovery times (in seconds) run: 95% Oxygen Peak times (s) 95% Oxygen Recovery time (s) 15% Oxygen Peak times (s) 15% Oxygen Recovery time (s) 1 187 45 62 185 2 180 56 52 102 3 200 64 40 188 4 181 69 39 73 5 153 71 36 123 6 108 52 60 201 7 181 21 56 133 8 144 61 27 177 This table displays each run and the times in seconds associated with it. The runs where the higher concentration of oxygen (95%) was used are displayed first, on the left. The runs where the lower concentration of oxygen (15%) was used are displayed second, on the right. The peak times (the time it takes for the subjects heart rate to reach 140 bpm from resting) are displayed in the 2nd and 4th column and the recovery times (the time it takes for a subjects heart rate to go from 140 bpm back to within 10 of resting) are displayed in the 3rd and 5th column. This bar graph displays the average recovery times and peak times for the two different levels of oxygen concentration. The recovery times are listed at the top and the peak times are listed at the bottom. Average Difference in Peak and Recovery time in seconds Peak time (s) Recovery time (s) Difference 120.25 92.875 This table displays the difference between the average peak time of the 95% and 15% oxygen concentration. As well as the difference between the average recovery time of the 95% oxygen and the 15% oxygen concentrations. Evaluation Conclusion of results There is a clear difference between the times for the two different concentration of oxygen. When the subject was administered 95% oxygen their peak times took an average of 166.75 seconds, while when the average peak time when only 15% oxygen concentration was administered was 46.5 seconds. This is a difference of 120.25 seconds, so clearly when a subject is administered more oxygen it provides more oxygen for the system, this allows the body to stay out of anaerobic respiration longer and thus allows the heart to beat slower for a greater amount of time. The difference seen in recovery times was also significant. On average, with the higher 95% oxygen concentration the subjects recovered around 54.875 seconds. However when the subjects were administered the lower concentration of oxygen the recovery times took much longer, averaging out at 147.75 seconds. The difference was 92.875 seconds. This occurred because when the body was already deprived of oxygen and the saturation was low there was a large amount of carbon dioxide and lactic acid build up from anaerobic respiration. Then, after the subject stopped running, the low oxygen concentration most likely caused the subjects to stay in anaerobic respiration as the body tried to oxygenate the tissue. With the higher concentration of oxygen, the subjects body was able to quickly oxygenate the tissue and return the body to complete or near complete aerobic respiration. This would have stopped the build up of lactic acid and carbon dioxide and allowed the body to flush the two out of it s system. Once the lactic acid and carbon dioxide has either been absorbed or in the case of carbon dioxide, exited the lungs, the heart rate would return to resting. Therefore, the results matched what should have happened according to previous scientific research, outlined in the introduction. How the lab could be improved and extended The first thing that would be helpful would be to use a more accurate heart rate monitor. Most likely the best solution would be a heart rate monitor that could be taped to the finger being used in unison with a chest heart rate monitor. Using both of these simultaneously would ensure the best and most consistent results. In addition it would remove the responsibility from the subject of holding onto the heart rate monitor. Another issues that could be easily solved is the oxygen mask. The straps that were provided with the mask fell off very easily during running. As a result   the subjects had to hold the mask to their face as they ran. This hindered their ability to run smoothly and did not guarantee a complete seal around the face. Next time a full head cap could be used to ensure that a seal was maintained and would allow the subject to run normally. To further extend this experiment saturation rates could also be compared to heart rate and oxygen concentration. When the subjects were performing the test their saturation rates were monitored for safety reasons but not recorded. If the saturation rates could be recorded throughout the test at specific points along with the heart rate it would be interesting to look into how the saturation rates are correlated with the heart when very low and very high concentrations of oxygen are being administered to the subject. Works Cited Burton, Deborah Anne, FRCA, Keith Stokes, BSc PhD, and George M. Hall, MBBS PhD DSc FRCA. Physiological Effects of Exercise. Continuing Education in Anesthesia, Critical Care and Pain. Oxford Journals, n.d. Web. 10 May 2016. Damon, Alan, Randy McGonegal, Patricia Tosto, and William Ward. Higher Level Biology. N.p.: n.p., n.d. Print. How Your Lungs Work. How Your Lungs Work. Cleveland Clinic, 13 Oct. 2010. Web. 13 May 2016. Appendix Release forms: I, Jonas Kaare-Rasmussen understand that the experiment I am involved in and the tasks that I am performing, could be dangerous for my health. I assume all liability for my actions and understand that slight Oxygen deprivation may cause health problems. Electronically signed by: Jonas Kaare-Rasmussen I, Jack Larsen understand that the experiment I am involved in and the tasks that I am performing could be dangerous for my health. I assume all liability for my actions and understand that slight Oxygen deprivation may cause health problems. Electronically signed by: Jack Larsen I, Danielle Zimber understand that the experiment I am involved in and the tasks that I am performing could be dangerous for my health. I assume all liability for my actions and understand that slight Oxygen deprivation may cause health problems. Electronically signed by: Danielle Zimber I, Hailey Zimber understand that the experiment I am involved in and the tasks that I am performing could be dangerous for my health. I assume all liability for my actions and understand that slight Oxygen deprivation may cause health complications. Electronically signed by: Hailey Zimber I, Alex Kellam understand that the experiment I am involved in and the tasks that I am performing could be dangerous for my health. I assume all liability for my actions and understand that slight Oxygen deprivation may cause health problems. Electronically signed by: Alex Kellam I, Taso Warsa understand that the experiment I am involved in and the tasks that I am performing could be dangerous for my health. I assume all liability for my actions and understand that slight Oxygen deprivation may cause health problems. Electronically signed by: Taso Warsa I, Ben Voter understand that the experiment I am involved in and the tasks that I am performing could be dangerous for my health. I assume all liability for my actions and understand that slight Oxygen deprivation may cause health problems. Electronically signed by: Ben Voter I, Alex Alsop understand that the experiment I am involved in and the tasks that I am performing could be dangerous for my health. I assume all liability for my actions and understand that slight Oxygen deprivation may cause health problems. Electronically signed by: Alex Alsop

What Is Music? :: Music

What Is Music? According to the dictionary music is having rhythm, melody, or harmony. But it's really underestimated, more so than anyone actually realizes! Music is a learning, a therapy, and teaching tool. Music adjusts our moods, and used throughout our lives. To lead a healthy life, we need to incorporate music. Whether playing it, listening to it, or using it. Music is therapy because of its positive changes in human behavior. The therapy consist of singing, playing instruments, moving to music, and listening to music. This builds your communication skills, motor skills and emotional development. Music comes into our lives at an early age. I wake up crying from a terrifying nightmare, looking around for my mommy. The light turns on. She comes up and sits on the bed, saying everything is O.K. I tell her a monster was coming after me, in between my heavy breathing, A light peaceful voice starts coming out of her mouth. "Rock a bye baby on the tree top, when the wind blows the cradle will rock." My eyes slowly shout and I'm back to sleep again. We learn music in Elementary School. Don't you remember learning your first song and singing it to all the parents? It's a great learning tool for the teachers. Music is everywhere including in an elevator. As I step in to an elevator, sea of staring faces and in an enclosed space, my heart beats a little faster. The first thing heard is the music, with its relaxing and calms melody. We have something for our mind to focus on, and not all the people around you or to remember that we're claustrophobic. Music is every where we go, even in store. What the purpose of this?